Length of area along axis X (A=1) 03.01.2016 A 1. Height of are along axis Y (B <=1) B 1. Thickness of area along axis Z (C <=1) C 1. Initial X coordinate of area X0 0 Initial Y coordinate of area Y0 0 Initial Z coordinate of area Z0 0 Number of divisions over axis X Mu 2 Relative initial density of the area Ro0 1. Relative initial density of point body RoS 2. X - coordinate of a separate body Xs 1.5 Y - coordinate of a separate body Ys 0.5 Z - coordinate of a separate body Zs 0.5 Velocity of the separate body along axis X Us -0.4 Velocity of the separate body along axis Y Vs -0.15 Velocity of the separate body along axis Z Ws 0.5 Angular velocity of rotation of area wu 0.0 Relative X-coordinate of the axis of rotation X01 0.5 Relative Y-coordinate of the axis of rotation Y01 0.5 Absolute average density of the area, kg/m^3 Roa 1.E-7 Absolute density of bodies, kg/m^3 Rob 5000. Depiction with respect to first body (below) Kl10 0 Integration time step at Kl1=0 dt 5.0e-4 Maximum dimension of TR array Klmax 6000 Number of integration steps in one cycle Ltk 10000 Number of cycles Ltk2 1 Key: input data from file 4 Kl1 2 Key: start of counting time/Step correction Kl4 1 Search of encounters of body No. at Kl3 Nbd 0 Key: writing data to file Kl7 0 Number of interacting bodies k2 9 Interval of data (picture) output (in steps) Kl3 1000 Beginning step-by-step of data (pctrs) output Kl11 0 Key: writing trajectory parameters Kl12 1 Steps interval of trajectory parmtrs output Kli 279211 Display mode Nre -3 Correction of the area size on the screen Kl14 1 Coefficient of area form on the screen af 2.8 Coefficient of mass size of the screen Rd 0.6 Coefficient of velocity on the screen amv 2.0 Crrctn factor of step dtk at bodies' approach bt 0.5 Flat depiction of layer to Z Ke 0 Rotation of area relative to X-axis by angle al 0. Rotation of area relative to Y-axis by angle bet 0. Begining of screen area along x Xe0 300. Begining of screen area along y Ye0 300. Image size in x aix 160. Image size in y biy 160. Initial data file name FIMA4 axsykl09.dat axsyk202.dat axsykc02.dat axsykc03.dat axsykc9c.dat axsykl09.dat axsymb30.dat k2=30 sn2010Ap.dat k2=12 snKo2110.dat k2=21 sn69JPA2.dat sn49jplc.dat sn49f.dat Number of bodies in trajectory analysis Np 3 Key: body velocity output Kl15 0 Velocity colour of the first body ipp(1) 1 Velocity colour of the all bodies jpp(1) 5 Number of the first body kpp(1) 1 Velocity colour the second body ipp(2) 1 Free key of the second body jpp(2) 1 Number of the second body kpp(2) 2 Velocity colour of the third body ipp(3) 5 Free key of the third body jpp(3) 1 Number of the third body kpp(3) 3 End---------------------------------------------------------------- Reminder: jpp(1), jpp(2), jpp(3) - free keys -------------------------------------------------------------------